CN213629867U

CN213629867U - Aluminum lean tube rotator

Info

Publication number: CN213629867U
Application number: CN202022401123.XU
Authority: CN
Inventors: 王成相
Original assignee: Baihong Metal Products Dalian Co ltd
Current assignee: Baihong Metal Products Dalian Co ltd
Priority date: 2020-10-26
Filing date: 2020-10-26
Publication date: 2021-07-06
Anticipated expiration: 2030-10-26

Abstract

The utility model discloses an aluminium lean pipe rotates ware draws together the installation body and is used for the axial position of aluminium alloy lean pipe and the clamping device of turned angle position control with installation body activity assembly. When the aluminum alloy pipe is used, the aluminum alloy pipe is used for limiting the sliding position of the aluminum alloy pipe along the axial direction, and meanwhile, the function of enabling the aluminum alloy pipe to rotate smoothly is provided. The end cover is used for preventing dust and water of the moving part, so that the moving performance of the moving part is guaranteed, and the attractiveness of the overall appearance is facilitated. Compared with the prior art, the utility model has the advantages of the structure is succinct, reliable, with low costs, easily realize, incorporate into lean pipe assembly line in, the assembly becomes upset pendulous device, realizes the service function of a certain specific function module in the lean pipe assembly line, for a high-efficient application of simple and convenient automation, does benefit to the production link of wide application in trades such as automotive industry, electronic manufacturing, communication industry, bioengineering, pharmaceutical industry, chemical industry, accurate five metals.

Description

Aluminum lean tube rotator

Technical Field

The utility model relates to an adaptor/rotating ware technical field specifically is an aluminium lean pipe rotating ware.

Background

In the current industrial application, the lean pipe is popular due to its own assembly flexibility and versatility, and naturally prompts various application examples, one example of which is simple automation, which is abbreviated as lcia (low Cost Intelligent automation). Further, lean tubes are used in LCIA, designed and assembled according to operational requirements, and provide more novel and multifunctional requirements for mating adapters/rotators in order to achieve different assembly functions. Industrial activities in the lean production concept at the present stage, the so-called automation emphasizes low cost, simplicity and practicability; accordingly, there is a need in the market for an adaptor/rotator for use in a turning/swinging device when the adaptor/rotator is assembled with a lean tube to form the turning/swinging device according to application requirements.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an aluminium lean pipe rotates ware, has carried out the innovation improvement on structure and structural component, can realize that the activity of the position of lean pipe when the clamping state is spacing.

In order to achieve the above purpose, the utility model provides a technical scheme is: the utility model provides an aluminium lean pipe rotating device which characterized in that: including installation body and with installation body movable assembly be used for the axial position of lean pipe and the clamping device of turned angle position control, clamping device has the lean pipe that supplies the adaptation along the spacing socket joint structure of the axial slip of lean pipe and the lean pipe that supplies the adaptation around the carrier assembly of the central axis rotary motion of lean pipe, carrier assembly cup joints the setting with socket joint structure mutually, the installation body is seted up and is supplied the built-in central appearance chamber that supplies carrier assembly and supply socket joint structure to run through, corresponding to the central both ends mouth position that holds the chamber is provided with the end cover.

As to the utility model discloses a further explanation:

in the above technical scheme, the installation body is a barrel part with a circular central through hole, the outer surface of the installation body is provided with a plurality of through groove structures which are uniformly distributed along the axial extension of the installation body, and a connecting boss is arranged between two adjacent through groove structures.

In the above technical scheme, the through groove structures are all symmetrically arranged side by side, and the connecting boss and the mounting body are of an integral structure.

In the above technical solution, the sleeve structure is a hollow circular tube having an inner clamping hole for sleeve-connecting with an adapted lean tube, and the sleeve structure is rotatably installed in the central cavity through the bearing component and has the same central axis as the mounting body.

In the above technical solution, the bearing assembly is a bearing that is sleeved on the sleeve structure and symmetrically arranged.

In the above technical scheme, the connecting boss is of a hollow structure, and the two ends of the connecting boss are both provided with hole structures for connecting the end covers.

The utility model has the advantages that: compared with the prior art, the utility model has the advantages of the structure is succinct, reliable, with low costs, easily realize, merges into lean pipe assembly line, assembles into upset/pendulous device, realizes the service function of a certain specific function module in the lean pipe assembly line, for a high-efficient application of simple and convenient automation, does benefit to extensive popularization and application.

The present invention will be further explained with reference to the drawings and the embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a partial sectional structure view of fig. 1.

Fig. 3 is a schematic view of the overall exploded structure of fig. 1.

Fig. 4 is a schematic structural view of the clamping device of the present invention.

The various symbols in the figures illustrate:

1. installing a body; 11. a central cavity; 12. a through groove structure; 13. connecting the bosses; 130. excavating a space; 131. a pore structure; 2. a clamping device; 21. a socket structure; 210. an inner clamping hole; 211. a limiting bump; 3. an end cap; 31. connecting holes; 100. lean the tube.

Detailed Description

The present invention will be further described with reference to the following embodiments and the accompanying drawings, wherein the following description sets forth more details for the purpose of fully understanding the present invention, but it is obvious that the present invention can be implemented in various other ways different from those described herein, and those skilled in the art can make similar generalizations and deductions according to the actual application without departing from the spirit of the present invention, and therefore, the scope of the present invention should not be limited by the contents of the embodiments.

Specifically, the utility model provides a specific following embodiment:

referring to fig. 1, fig. 2, fig. 3 and fig. 4, the aluminum lean tube rotator provided in this embodiment includes an installation body 1, and a clamping device 2 movably assembled with the installation body 1 and used for adjusting an axial position and a rotation angle position of the lean tube 100, where the clamping device 2 has a socket structure 21 for limiting axial sliding of the lean tube 100 in the adaptation and a bearing component 22 for rotational movement of the lean tube 100 around a central axis of the lean tube 100 in the adaptation, the bearing component 22 is in socket connection with the socket structure 21, the installation body 1 is provided with a central cavity 11 for the bearing component 22 to be embedded and for the socket structure 21 to penetrate through, and two end ports corresponding to the central cavity 11 are provided with end covers 3. The sleeving structure 21 is provided, in practical application, the sleeving structure 21 is used for penetrating the lean tube 100 with the adaptive specification, the lean tube 100 of the embodiment is an aluminum alloy lean tube 100, the inner surface structure of the sleeving structure 21 is matched with the outer surface structure of the lean tube 100, further, the sleeving structure 21 is further provided with a screw (not shown) for adjusting the positioning of the lean tube 100, and the screw penetrates through one side wall of the sleeving structure 21. The structure is convenient for the installation and fixation of the lean tube 100, and the lean tube 100 is adjusted to be corresponding to the fixed position of the sleeve structure 21 through the screw piece according to the application requirement, so that the operation is simple and convenient, and the connection is stable. The bearing component 22 is provided, and the bearing component 22 constitutes a bearing for the socket structure 21 to rotate around the central axis of the socket structure 21, so that the lean tube 100 installed therein can rotate smoothly. The end cover 3 is used for the dustproof and waterproof functions of the bearing component 22, and the durability of the bearing component 22 is improved while the overall appearance is attractive. The utility model discloses do benefit to and incorporate into lean pipe 100 production line, assemble into turning device wherein according to the application needs, realize low manufacturing cost, the nimble application purpose of installation matched stack.

As to the utility model discloses a further explanation:

according to the above technical solution, referring to fig. 3, the mounting body 1 of the present embodiment is a cylindrical member having a circular central through hole, and the circular central through hole forms the central cavity 11; eight through groove structures 12 which are uniformly distributed along the axial extension of the installation body 1 are formed in the outer surface of the installation body 1, and a connecting boss 13 is arranged between every two adjacent through groove structures 12. The number of the connecting bosses 13 corresponds to the number of the through groove structures 12. In a specific embodiment, the connecting bosses 13 are dovetail bosses which are uniformly distributed along the outer circumference of the mounting body 1; correspondingly, the through groove structures 12 are all symmetrically arranged side by side and in parallel, and the connecting boss 13 and the mounting body 1 are of an integral structure.

In another variant, the size and number of the outer contours of the through groove structure 12 and the dovetail bosses are varied according to production requirements to meet different application requirements.

Further, the sleeve structure 21 of the present embodiment is a hollow circular tube, and has an inner clamping hole 210 for being sleeved with the adaptive lean pipe 100, and the sleeve structure 21 is rotatably installed in the central cavity 11 through the bearing component 22 and has the same central axis as the mounting body 1. In the specific structural design, the middle position of the outer circumferential surface of the socket structure 21 corresponding to the socket structure 21 is provided with a plurality of limiting lugs 211, the limiting lugs 211 are consistent in shape and size, and are symmetrically arranged around the outer circumferential surface of the socket structure 21. The inner clamping hole 210 is a profiled hole.

According to the above technical solution, the bearing assembly 22 of the present embodiment is a ball bearing symmetrically disposed on the sleeve structure 21, and is used for providing smooth rotation performance and excellent structural strength for the adaptive lean tube 100.

Preferably, the connecting boss 13 is a hollow structure, a hollow space 130 is provided inside the connecting boss 13, both ends of the connecting boss 13 are hermetically arranged, and both ends of the connecting boss 13 are provided with hole structures 131 for connecting the end caps 3. The hole structure 131 is preferably a threaded hole, correspondingly, the end cover 3 is provided with a connecting hole 31 corresponding to the hole position of the hole structure 131, and the end cover 3 is arranged by closing two openings of the central cavity 11 through screws. The structure is beneficial to reducing the whole weight, saves the material cost and is an innovative improvement of the structure.

The utility model has the advantages of the structure is succinct, reliable, with low costs, easily realize, incorporate into lean pipe 100 assembly lines, the assembly becomes upset/pendulous device, realizes the service function of a certain specific function module in the lean pipe 100 assembly lines, for a high-efficient application of simple and convenient automation, does benefit to extensive popularization and application.

While the embodiments of the invention have been disclosed above, it is not limited to the applications listed in the description and the embodiments, which are fully applicable in all kinds of fields suitable for the invention, and further modifications may be readily effected by those skilled in the art, without thereby departing from the generic concept as defined by the claims and their equivalents, and without thereby limiting the specific details and illustrations presented herein.

Claims

1. The utility model provides an aluminium lean pipe rotating device which characterized in that: including installation body and with installation body movable assembly be used for the axial position of lean pipe and the clamping device of turned angle position control, clamping device has the lean pipe that supplies the adaptation along the spacing socket joint structure of the axial slip of lean pipe and the lean pipe that supplies the adaptation around the carrier assembly of the central axis rotary motion of lean pipe, carrier assembly cup joints the setting with socket joint structure mutually, the installation body is seted up and is supplied the built-in central appearance chamber that supplies carrier assembly and supply socket joint structure to run through, corresponding to the central both ends mouth position that holds the chamber is provided with the end cover.

2. An aluminum lean tube rotator as set forth in claim 1, wherein: the installation body is a barrel part with a circular central through hole, a plurality of through groove structures which are uniformly distributed along the axial extension of the installation body are arranged on the outer surface of the installation body, and a connecting boss is arranged between every two adjacent through groove structures.

3. An aluminum lean tube rotator as set forth in claim 2, wherein: the through groove structures are symmetrically arranged side by side, and the connecting boss and the mounting body are of an integral structure.

4. An aluminum lean tube rotator as set forth in claim 3, wherein: the sleeve structure is a hollow round pipe and is provided with an inner clamping hole for being sleeved with the adaptive lean pipe, and the sleeve structure is rotatably arranged in the central cavity through the bearing component and has the same central axis with the mounting body.

5. An aluminum lean tube rotator as set forth in claim 4, wherein: the bearing assembly is a bearing which is sleeved on the sleeving structure and symmetrically arranged.

6. An aluminum lean tube rotator as set forth in claim 2, wherein: the connecting boss is of a hollow structure, and hole structures for connecting the end covers are arranged at two tail ends of the connecting boss.